TABU spa Catalogo Generale EN v401.19 - IE
Transcription
TABU spa Catalogo Generale EN v401.19 - IE
V.401 GENERAL PRODUCTS CATALOGUE turn INDEX The Company How Veneers are made Technical Notes Contacts PRODUCTS Natural Dyed Veneers Multilaminar Wood Veneers Parquet and Parete Tabu Edgebandings Tabu Collection Colours and tones may vary depending on the screen used, and particularly on colour balancing, saturation, brightness Chromatic result is indicative Reproduction from varnished samples For a good fidelity level with the original colours, we suggest to adjust your screen with this page 2 THE COMPANY TABU has been operating in this sector since 1927, with its headquarters in Cantù (Como). The offices, plant and storage areas are scattered over a 70.000 m2 area, of which 40.000 is covered. Parquet production is carried out in the relevant establishment at Desio (Milan). Tabu specialises in producing natural wood veneers, through-dyed wood veneers in a huge range of colours , sliced and solid multilaminar wood in both inlaid or traditional structures, wood edgebands, floor boards and deckings . By using Tabu products the designer can create designs using real wood whilst harmonising the colour range according to his own taste. As furniture has developed, the need for colour and shape co-ordination has emerged. Designers now have materials at their disposal which allow co-ordination of all the elements allowing them to obtain a perfect synthesis of shape, colour and space. 3 HOW VENEERS ARE MADE The Americans were the first to slice wood, in about 1800, using a very primitive machine not more than 1,50 metres wide. The Frenchmen Sanson Vallette and Gardean were the next in 1870. In Italy there were the Cremona family in 1901, which with the first horizontal slicer were the originators of the veneering technique. These thin sheets allowed artisans to produce lighter, cheaper furniture which reduced substantially the amount of wood used. Veneering consists in gluing a veneer layer onto a stable substrate (hollow-core panels, MDF, particle board, plywood etc.). This procedure has made it possible to produce goods made of wood but not subject to the warping and splitting which regularly occurs with solid wood. Furthermore, by using veneers, wood species which are not feasible as solid wood due to their wide variation in size, can now be employed, such as burrs and exotic species, both sought after and beautiful. In the mass production of furniture, veneers represent the ideal solution to the various problems such as the practicality of use, the ease of handling and above all, the limitation on consumption; one need only consider that 1 square metre of solid wood 3 cm thick is equivalent to 50 square metres of veneer. In practice, the solution veneers provide was one of the first to meet ecological needs, by reducing considerably the consumption of wood in the furniture industry. As they have been used, the “through-dyed veneers” (dyed through the whole thickness) have been developed, which offer considerable advantages to the users. They have also made possible the production of solid and veneered multilaminar wood, which solve many problems such as reducing consumption, since they are produced in fixed sizes according to the uses to which they are to be put; in addition the production of mass produced inlays and new textures for industry and 4 HOW VENEERS ARE MADE designers. It is thanks to rotary cut veneers that the production of plywood, multiply and moulded plywood has been made possible. Veneers are obtained from the trunks of various wood species. These are utilised according to type which determines their ultimate use, since they are differentiated according to structure, colour, value, defects and characteristics. Broadly speaking there are three groups which can be classified: • Logs for slicing or for rotary cutting These are trunks which, when viewed from four quarters, are clean and straight, with no unusual forking, straight with a central core, without holes, dead or unsound knots, resin pockets, morphological defects such as mould, parasites or stains; they must be the correct colour according to the species, to a usable length of more than 2,40 m and a minimum top end diameter of 40 cm. Sliced or rotary cut veneers are obtained from logs with these characteristics. Trunks for producing burr veneers shall have the same characteristics apart from size, as these are trunks, or parts of them, of differing sizes and structure. Logs for slicing are also used to produce precious items such as pieces of furniture, objets d’art, etc. • Logs for sawing These are logs where the following characteristics are acceptable: bent logs, some holes or dead knots, stains, some morphological or colour defects according to the species. These logs are used to produce boards, in the manufacture of turned items, parquets, building boards and so on. 5 HOW VENEERS ARE MADE • Logs for pulping (branches) These are logs which exhibit gross defects in comparison to logs used for slicing or sawing. These logs are used in the manufacture of fibreboard, wood dust, cellulose, packaging and so on. Some useful parts are also used for turned goods, parquet or small wooden artefacts. The trunks for slicing, felled in the correct season, are maintained and treated with particular care during transportation and storage before being worked, in order that they should not deteriorate. The processing begins with steaming if necessary, removal of bark and squaring off, which renders the log a suitable shape for the actual business of processing, be it slicing or rotary cutting. As regards slicing, the log, previously secured, is sliced using a running knife, whereas rotary cutting consists in peeling the trunk as it turns round a fixed knife. In this way sheets of thickness of 0,2 to 3 mm are obtained, which are put together in bundles. A certain number of these bundles make up a boule; a collection of boules makes up a “trunk”. The size and figure (striped or flame-pattern) of the sheets are determined by the wood species used, by the characteristics of the original trunk or log and by the type of processing adopted. Within a single boule or “trunk”, therefore, is a collection of measurements which vary as to length and width. 6 HOW VENEERS ARE MADE Veneers are more valuable when obtained from wood species with particular characteristics, such as burrs, pommelle or fiddleback figures and others besides. Quality is determined by various factors such as rarity, structure and size. Log for slicing Log for sawing Branches On the following pages some slicing/rotary cutting methods are described 7 HOW VENEERS ARE MADE SLICING METHODS Flat slicing 1. 2. 3. 4. knife slicing direction ray growth ring True quarter slicing, radial 1. knife 2. slicing direction Flat quarter slicing, tangential” 1. knife 2. slicing direction 8 HOW VENEERS ARE MADE ROTARY CUTTING METHODS Rotary cutting 1. knife 2. direction of rotation True half-rounding” 1. knife 2. direction of rotation Eccentric quarter cutting 1. knife 2. direction of rotation 9 TECHNICAL RECOMMENDATIONS Introductory remarks: the way in which any product is put to use is decisive, if the best result is to be obtained. Therefore it is advisable to follow the rules dictated by the characteristics of a natural, living product. The realisation of a manufactured article is always the result of accumulated experience, art and technology which are the personal talents of the product’s craftsman. The only purpose of the following recommendations is to put at everyone’s disposal the years of experience gained from working together with craftsmen and manufacturers in this field. The choice: The choice of a natural or pre-dyed veneer is most important since it must answer the requirements of size as well as the taste (as regards species, structure and colour) of the buyer. Normally, the goods in the warehouses are in lots, consisting of “trunks”, each of a different character; it is therefore necessary that the buyer chooses very carefully, either personally or through trusted agents, or else by letting the supplier have the necessary information to find the materials best suited to the requirements. At this stage it is well to remember that there are certain natural characteristics in wood which in some cases may be considered defects, but which are in fact features. That is why it is advisable that the product be seen and selected according to one’s own requirements. Characteristics: structure, splay knots, sapwood, fiddle back or mottled figure, irregular and more or less marked vein, colour variation even within 10 TECHNICAL RECOMMENDATIONS the same trunk, knots and anything else specific to the wood species in question. Defects: (natural veneers): a catalogue of attributes of veneer which the user does not subjectively accept, are commonly referred to as “defects”. Wood is a natural product and as such its appearance in certain cases may be pleasing or displeasing. It is therefore necessary to distinguish true defects from natural characteristics. Defects include: splits, holes, mould, marks resulting from processing, slicing marks left by the cutting blade, wormholes and whatever else has occurred as an external cause to change the appearance, which is not inherent in the wood species in question. Defects: (pre-dyed veneers): TABU’s pre-dyed veneers are nothing other than natural veneers which are dyed to the desired colour, and as such possess all the characteristics in all their effects. The defects may be considered as those occurring in natural wood. An additional defect can only be the lack of penetration of the dye, or an unacceptable colour. Defects: (Multilaminar wood): the following should be considered as defects: cracks, processing marks, holes, mould. Non-standard in structure or colour having regard to the standard samples. (Outside predetermined margins of acceptability). 11 TECHNICAL RECOMMENDATIONS Transportation: no precautions except to avoid breakage and exposure to outside weather conditions; (sharp variations of humidity); this could produce moulds, with the consequent appearance of stains on being varnished. Pollution: the criteria are the same for Natural Wood, TABU Pre-Dyed Wood and M. W. It is advisable to avoid discharge of the wood dust (from sanding) into water-courses: this could cause damage to aquatic plant and animal life. Health and safety: protect airways and mucous membranes from the sanding dust. Fire precautions: wood is inflammable, but not spontaneously so. pH: about 7 (on delivery). Measuring veneers: (moisture content 10-12 %): the measuring process is carried out electronically therefore the squaring up takes account of the perimeter sizes. Measure out is made for any defective parts present in the veneer (holes, splits and whatever is considered a defect). Tolerances: (TABU pre-dyed woods): in the dyeing processes, slight colour variations (8-10 %) may occur from one batch to another. This is due to the differing rate of absorption of the wood itself, which varies from log to log and from species to species. The said range is, however, in customary use. 12 TECHNICAL RECOMMENDATIONS Tolerances: (Multilaminar Wood): slight colour and structural differences (810 %) may occur from one batch to another; this is due to the varying behaviour of the wood during processing. The said range is, however, in customary use. Colour control: Wood and therefore veneers tend to oxidise, which results in surface colour changes. Therefore, in order to be able to compare the colour of two veneers, whether natural, pre-dyed or M. W. (still unvarnished), it will be necessary to sand them beforehand so as to remove the external part which may have oxidised. Density: see the product specification according to wood species and Multilaminar Wood. Toxicity: in some wood species there are substances which may be toxic. During processing TABU pre-dyed natural woods or M.W. lose a certain part of the lymph they contain and the substances added do not exceed in quantity the margins recommended; consequently these may be considered an improvement with regard to toxic effects. Storage: wood is liable to absorb or lose atmospheric humidity and so should be stored in conditions which are neither too dry or too moist (relative humidity about 50-60 %). Being also light-reactive, it should be kept in dark 13 TECHNICAL RECOMMENDATIONS or covered conditions. If not, defects such as warping, colour variation, breakage and delamination (in M W) may result. The selection: before carrying out joining procedures it is advisable to cut out those parts of the veneer which are defective or exhibit some undesirable characteristic. Moisture content: the moisture content should be close to that of the substrate to which it is to be applied (about 12 %). Wood has a tendency to swell due to its water-absorption properties; the moisture content therefore determines the size. If the relative values of the swelling of the substrate and the veneer at the moment of gluing are different, splitting or wrinkling of the veneer will result, with consequent filtration of the glue (pore-whitening). The humidity factor must therefore be closely monitored. Clipping: during clipping, in order to achieve usable sizes for joining, it is advisable to ensure that the cutting blade is really sharp; a poor cut shows up the joins after veneering. Joining: in this phase a “system” is selected, which may be book matching, slip matching, pleasing matching, random matching, etc. The joining process is carried out with adhesive paper, stapling with thermosetting glue points, or gluing along the veneer border. It is important to remove the residues left by 14 TECHNICAL RECOMMENDATIONS this process, in the sanding phase. Poor sanding can cause marks which appear at the varnishing stage. The substrate: the substrate should be suitable for gluing, free from grease, or other substances, which may hinder the adhesion of the glues; dense, with a moisture content and temperature close to the veneer which is to be applied, in order to avoid cracking or delamination of the veneer itself after application. The colour of the base should be similar to the veneer which is to be applied in order to avoid one colour showing through after varnishing if it is too different. Products for overlaying: various types of adhesives can be used according to the gluing system adopted: cold-setting gluing (vinyl or similar adhesives), thermosetting gluing (ureic resins or similar). As a rule, thermosetting ureic glues are used which by their nature tend to yellow. A high acid or alkaline content in the glues, the wood or the substrate, may produce a change of colour in the veneer immediately following the gluing phase or soon after. The cause may be attributed to a change in the pH due to varying values in the various elements, that is the substrate, the wood, the glues. The substrates, the veneers and the glues must therefore be “compatible”; the need therefore arises for research into suitable glues, which should be carried out in collaboration with the glue suppliers themselves. It is common practice to colour the glues to conceal bleeding through or pore-whitening caused by penetration of the glue itself across the wood fibre. In such a case 15 TECHNICAL RECOMMENDATIONS the colorants used should be compatible with the glue, with the colorants or acidic content of the veneer and with the varnish which is later to be applied. In short, great attention must be paid to the glues used together with close collaboration with the suppliers in order to achieve the best technical results bearing in mind production needs and the final result to be achieved. Overlaying: the glue should be spread on the base evenly and in small quantity; it should be quite thick to avoid penetration into porous veneer causing bleeding through or pore-whitening which could become obvious at the varnishing stage. The application should be carried out quickly once the veneer has come into contact with the glue. If for other reasons the time interval should lengthen and the veneer, having been glued, begins to buckle, hindering the operations still to be carried out, it will suffice to moisten the veneer itself on the visible surface with a light spray of water; it will then regain its original flatness. Wood being a natural product, possesses differing characteristics from species to species and from log to log; the hardness, the density, the heat-conducting qualities may vary according to the moisture content and the nature of the wood fibres, which may differ from species to species. For example, birch has a different heat-conducting value from a tulip tree wood; sycamore has a finer texture than ash. At this point, at the pressing stage, the need for a whole series of adjustments emerges, which vary according to the wood species being used: pressure and compression, temperatures and pressing times, quantity of glue and cooling of the panels. In general terms, the following average values apply: press 16 TECHNICAL RECOMMENDATIONS pressure 2-4 kg/cm2, temperature 80-90 °C, pressing time 4-5’. Strong pressure applied to woods with large vessels such as ash and oak facilitates glue penetration through the veneer (pore-whitening). High temperatures used on highly heat-conducting wood causes scorching and consequent colour variation. Another important factor is the cooling of the panel after the application of the veneer. The substrates (particleboard, MDF and others) are agglomerates composed of wood and chemical products (glue). When these are exposed to heat, the evaporation of chemical product residues is facilitated, which appear on the surface and penetrate the veneer. It is therefore advisable to allow these vapours to evaporate during the cooling phase by means of free ventilation; placing anything upon the panels should therefore be avoided until they have returned to a normal temperature. These residue vapours can cause colour variation in veneers and possible deterioration of the colorants contained in them. In the case of hollow-core structure substrates it is advisable to make air-holes to relieve pressure which forms at high temperatures within the hollow-core structure itself, in order to avoid fissuring. In the case of burrs or wavy veneers, it is ad visable to flatten them before application, which involves applying pressure at 85-90 °C for about 1-2 minutes to individual sheets and then proceed with the application procedure. In applying a very light-coloured veneer, avoid the use of dark-coloured bases in case the base colour shows through the veneer, changing its colour. Here we recommend carrying out a double veneer application, setting the 17 TECHNICAL RECOMMENDATIONS fibre of each veneer at right angles to one another. It is normal to colour the glue when applying dark-colour or very porous veneers, to conceal possible bleeding through. It is advisable, in this case, to avoid dyes which, by leaching from the glue, modify the veneer colour. At the varnishing stage, marks of a different tone may appear. In the case of light woods, use colourless glues which are thick, and apply sparsely. In veneer application a basic rule must be kept in mind, which is that two veneers must never be placed on top of one another with their grains in the same direction, even if this in volves applying a veneer to ready-made plywood. Fissures could occur due to stress imbalance in the two veneers which are not balanced Back-overlaying: to avoid bending (cupping) the substrate must be counterbalanced with a veneer having the same dimensional variability and structure as the face veneer. It is not advisable to apply directly to particle board (e.g. MDF) veneers presenting high dimensional variability on exposure to moisture (e.g. burr, crotch) since checking and delamination may occur. In this case double application is recommended. Filling: it sometimes happens during processing that some substrate to which a layer has already been applied has small fissures or breaks caused by previous working. In such a case the defects are made good with fillers (in colours to match the woods used), which are glue or synthetic resin-based commercially available ready-made; otherwise such fillers can be made up 18 TECHNICAL RECOMMENDATIONS using oxides, kaolin and powdered colorants, mixed with fast-setting resins or glues, which are applied using a filling knife and sanded down when thoroughly dry. Where ready-made coloured fillers are not available or, in the case of TABU pre-dyed veneers whose colours are difficult to reproduce with oxides etc., a solution is to sand down a veneer of the same colour, and make up a filler with the wood dust so obtained. Insufficient drying or incompatibility between the filler’s components and the varnishing products could cause marks of a different colour tone which will appear after varnishing. Sanding: Usually it is carried out with 100/150 grain sanding paper. Finer or coarser grains will result in greater or lesser absorption of the varnishing products and, respectively, in a more or less intense colour of the veneer. Worn sanding paper can cause burn-marks on the veneer by excessive friction (sander). In this case the friction of the abrasive produces heat (burn marks) and consequent colour variation. Excessive sanding causes overreduction of the veneer’s thickness, which reveals the part of the veneer in contact with the glue, causing the undesirable phenomenon of pore-whitening or sanding through. For these reasons it is advisable to harmonise perfectly the action of the abrasive, pressure and sander speed, according to the veneer’s characteristics. Surface colouring: this is normally carried out using chromophores dissolved in water or solvent, or pigments suspended in a synthetic medium 19 TECHNICAL RECOMMENDATIONS (nitrous-based, acrylic and so on). The application is carried out manually, using air sprays or a roller dyer. Such systems have their limits since it is not possible to obtain very transparent colours, and the surface veining is consequently not emphasised; in addition it is not possible to obtain the complete colour range, as the base colour of the wood affects the final tone obtained and there is not a complete penetration of the colorants; they exclude the possibility of applying veneers of various colours on the same substrate. Such methods therefore limit a modification of the base colour and oblige one to remain, broadly speaking, within the colour range of the veneer used. In the case of colouring with water-based colorants, drying presents additional problems. If it is not carried out perfectly, it will badly affect the varnishing product that is subsequently to be used. In mass production, it is difficult to reproduce the full colour range given that colours change during the cycle of production, according to the veneer’s absorption capacity, the speed of dyeing, the evaporation of the solvent in the machines and the type of sanding previously carried out; these are considerations which affect the degree of colour penetration. The system of surface colouring is therefore acceptable when a good degree of transparency or constant colour reproduction is not required, and further sanding after colour application is not called for. Colouring of the natural veneer in the rough state: (TABU System): by this method the veneer is dyed using special technology when it is still at the rough or pre-processed stage, that is before being applied to the substrate. 20 TECHNICAL RECOMMENDATIONS The colorant therefore penetrates through the full thickness of the veneer itself whose treatment and application system, sanding and varnishing remain similar to those adopted for natural veneers. Making-good: where there are small sanding-through areas, the defect may be remedied (so far as possible) using the following means according to the case in point: alcohol felt pens, water or solvent-based colorants, colorants in solvents and nitrous-based resin or tempera-based pencils, bearing in mind that the final tone must be checked after the application of the varnishing product and ensuring there is no incompatibility between the paint product itself and the filler material. Stains or failure to dry of the paint product applied may result. Resistance to light: all wood species are light sensitive and change their colour on exposure to strong sources of light; it is therefore common practice to protect the wood during storage as well as the cycles of production. Veneers are normally used to manufacture products for indoor environments, not subjected to negative environmental factors (strong light, bad weather, extreme variations of temperature); besides this, no wood is ever used in its rough state but is varnished; it is therefore the layer of varnish which has to protect the wood from light and physical, chemical or mechanical agents; it must not go yellow, it must protect the wood from light and it must be easily absorbed. The varnishing products on the market are very different according to the intended use; it is therefore ad visable, in order to achieve good 21 TECHNICAL RECOMMENDATIONS results, to make a precise selection of both the product and the varnishing process so as to avoid excessive colour variation or defects of various kinds. Varnishing: at the varnishing phase, the wood colour becomes more intense according to the degree of penetration of the varnishing product used. A greater degree of penetration corresponds to a more intense colour; a specific final colour will result according to the degree of penetration, transparency, colour and opaqueness; changing the varnishing product or the varnishing cycle can result in the same veneer (natural, pre-dyed, multilaminar) achieving a different final colour-tone. The varnish layer can have a greater or lesser tendency to go yellow and this can cause colour changes. Yellowing is more noticeable on light-coloured wood species (for example sycamore, pear, pine) while it will be less noticeable on darkcoloured species or those which tend to yellow (walnut, mahogany, rosewood). All wood types when exposed to light will change colour. The changes vary from species to species. In the case of sycamore and walnut the change tends toward yellow; in the case of padauk towards red, in the case of pear towards brown an so on. Possible discoloration may occur to surface coloured wood, pre-dyed TABU or M.W. due to overstepping of the limits of resistance to light or to the heat of the colorants used (of whatever kind). It is always essential to use varnishes which do not tend to yellow and which contain additives to absorb ultra-violet light which help protect the wood against light, bearing in mind that the varnish layer tends to act as a protection against light - a thicker layer means greater protection. While all 22 TECHNICAL RECOMMENDATIONS the wood species, natural or dyed, pre-dyed TABU or multilaminar woods which are not varnished have little resistance, they can, by the use of appropriate varnishes, reach the following light-resistance values (test Weather Ometer Atlas 25WR ISO 2809 20 H): sycamore and similar 2-3, walnut and similar colours 3-4, mahogany and rosewood 4-5 (scale 0-5). How to determine light resistance: to give a value of light resistance expressed in terms of “time” (1 month, 1 year and so on) is virtually impossible in that wood or manufactured articles which contain it are exposed to rays emitted from light sources which are not quantifiable and which vary according to the type, the intensity, the length of exposure and the environmental conditions. For example, rays of sunlight filtered through a glass window change intensity according to the degree of altitude, if it shines vertically rather than horizontally, if it is direct or reflected, and so on. The weather conditions should be kept in mind. It is not possible to establish a point of reference relating to rainy days as opposed to cloudy ones and so on. As for artificial light sources, such as sun lamps, halogen lights, neon and so forth, the argument is virtually the same, in that every light source emits a different kind of wave, either shorter or longer, and they are positioned at differing distances and angles from the manufactured item. The method of measuring light resistance according to the UNI 2809 20 H standard or similar international standards, consists in subjecting a partially concealed substrate in a controlled environment (humidity and temperature, etc.) to exposure to one kind of light emitted from a particular light source for a 23 TECHNICAL RECOMMENDATIONS predetermined time (20, 30, 40 hours and so on), and, on uncovering the concealed area, observing the tonal variations between the two parts which will be revealed. Thus a value which expresses resistance to light is obtained. As regards the method referred to in the standard mentioned, the values are expressed in a scale of 0-5 (0 = least resistance, 5 = greatest resistance). APPROXIMATE EXAMPLE OF THE KIND OF EVALUATION OF RESISTANCE TO LIGHT ACCORDING TO STANDARD ISO 2809 20H 5 4 3 GREZZO ROUGH 2 VERNICI POCO IDONEE INAPPROPRIATE VARNISH SUITABLEIDONEE VARNISH VERNICI 1 0 LIGHT COLOURS MEDIUM COLOURS INTENSIVE COLOURS Dyes: where it is desired to retouch the colour of a natural or pre-dyed veneer or M. W., water-soluble dyes can be used, applied by spray or roller, taking care that the moisture content of the veneer does not exceed 12 % 24 TECHNICAL RECOMMENDATIONS before the application of the varnishing product. Solvent-based dyes, with or without a binding agent, may be used, taking care that they should not alter the transparency of the veneer. Woods with deep or marked pores: ash, oak, walnut, M. W. and so on. In the case of these woods where deep or marked pores occur naturally, it is as well to remember that incorrect filling of these pores with the varnishing product can cause “silvering” or “pore-whitening”. Therefore it is essential to use low-viscosity (liquid) varnishes which are quite slow-drying, particularly for the first coat; this is to allow the varnish to penetrate deeply and to facilitate the release of the air contained in these deep pores. Moisture content of wood: not above 12 % at the time of varnishing. Primers and finishing products: nitrous-based products, polyurethane, water-based acrylic and so on; in particular, on light and pastel-coloured woods, use non-yellowing products with ultra-violet absorbing additives. Protective film: on dyed woods or M. W., use a non-yellowing protective layer for light-coloured woods; avoid using protective layers for dark woods on light colours. Protective layers for dark woods are used to create a film on particularly oily woods (such as rosewood, teak, etc.) during the process of applying polyester. Non-oily wood species (such as mahogany, anegré, tulipier, birch, sycamore and so on), pre-dyed TABU or woods treated with 25 TECHNICAL RECOMMENDATIONS water-soluble dyes or solvent-based colorants, may be varnished by polyester processing, without being treated with a protective layer. However, it is advisable to apply such a layer to avoid possible incompatibility between the polyester (peroxide) and some types of colorants. Such incompatibility may cause colour changes, for example the colour combination red-blackorange in which the red is incompatible, results in loss of red in the base colour. Always use protective layer products which dry fairly slowly to avoid pore-whitening. Naturally-dryed polyester: on light or pastel colours use clear polyester paraffin varnishes which do not tend to turn pink or green, and which do not cause opalescence or stains on drying. Varnishes for ultra-violet ray drying: use products which do not alter the wood colour and which limit as far as possible U. V. ray exposure, which bring about colour changes. In the varnishing process, before drying, the pores of the wood must be completely filled with the varnishing product, which in this way replaces the air in the pores. This procedure is sometimes compromised by work practices which seek to accelerate the production cycles and to limit the amount of varnishing product used. In the U. V. drying process there are very short drying times. If you change the relationship between the machinery speed, paint quantity and light intensity, the 26 TECHNICAL RECOMMENDATIONS varnishing product improperly or unsuitably applied will not penetrate or adhere sufficiently and as a result, pore-whitening, opalescence, white stains and blisters etc. will result. Re-varnishing: it is sufficient to remove the layer of varnish by sanding and to get back to bare wood and start the new varnishing procedure. Again in the case of colour changes caused by exposure to light or an inappropriate varnish layer, by sanding thoroughly the wood will return to its original colour. Notes: as regards U. V. drying varnishes, it is not possible to add U. V.-ray absorbers since they inhibit the drying process. This factor makes these products less efficient as regards protection of the wood against light . 27 PRE-DYED VENEERS UNI Standards 10578-10651 Wood for furniture is usually dyed to eliminate the colour differences which arise from log to log and also for aesthetic reasons. In fact the designer looks for particular colour effects and reflects and co-ordinates the colours of the materials which make up a furnishing ensemble, using the wood itself to achieve a perfect fusion of shape, colour and space. Colour differences from one log to another are fundamental to each wood species, but even in an “individual” log colour variations may be met. The reasons for this are attributable to the natural characteristics of wood, to the season the tree is felled, to the degree of drying-out, to the processing and drying-out which occurs during the slicing phase and to other reasons besides. It is therefore standard practice to varnish the product, whether for technical or, not least, aesthetic reasons. Even before colour had the importance it has today, slight variations in coolness or intensity of colour were sought, in order to replicate a certain colour in a range which was still nonetheless of the same tone present in each wood species, as, for example, in the case of walnut: yellow, red or brown in varying intensity. There are two methods of dyeing veneer: the surface dyeing of the substrate which has already been veneered, or the dyeing of the veneer sheet in its crude state (the TABU system), before its application to the substrate (pre-dyed veneer). In this system, the veneer is dyed using special techniques when it is still in the crude state, that is before it is glued to the substrate. In this way the dyeing agent permeates the whole thickness of the veneer itself, whose method of use, veneer application system, sanding and varnishing remain similar to those employed in working natural veneers. During the processing cycle, TABU’s dyed veneers lose 28 PRE-DYED VENEERS some of their constituents, which in some wood species possess a certain degree of toxicity, and certain amounts of dyeing agents are added so as to render the TABU pre-dyed veneers practically non-toxic and resistant to wood-worm. The mechanical, chemical and physical characteristics remain unaltered and there are, indeed, a number of advantages, amongst which are the following: the possibility of eliminating, in some cases, stains upon the veneers, or to adjust strong colour differences between the darker or lighter grains; the possibility of eliminating the colour differences existing in veneers obtained from different logs of the same species; the possibility of applying veneers of different colours onto the same substrate (marquetry work and combination of colours); the ease of processing or working by eliminating problems caused by surface dyeing; the possibility of obtaining all the colours in the colour range; the advantage of emphasising the grain of or figure of the wood; the permitting of consistent colour reproduction. Another positive factor is the wide colour spectrum obtainable. This has become very important in the last few years, when the public has become very much aware of subtle colour differences, and colour has assumed a vital importance for the modern designer. All veneers may be pre-dyed. At the end various wood species in many standard production colours have been listed, available in the warehouse in small or large quantities to satisfy the various 29 PRE-DYED VENEERS needs of the clients. Non-standard colours can be made up in samples at the client’s request. Minium quantity: • natural or standard colours: 1 bundle (about 10 m2) • non standard colours : about 550 m2 30 WOOD SPECIES INDEX Ash [26] [D5.S] Ash Burr [72] [13] Oak Beech [20] [D6] Perpero Birch [27] [33] Plane Figured Bolivar [52] [09.S] Sycamore Figured Carbalho [81] [L1.S] Taba Figured Cherry [C3] [01] Lati [86] [01.S] Madrona Burr [46] [04] Tay [08.P] [51] Walnut Black Maple American [G5] [06] Walnut European Maple Bird’s Eye [05] [A3] Walnut Burr California [D7.P] [99] Walnut Burr European Mahogany Pomelè Maple Quilted Movingue Figured Tanganika Tanganika Figured 31 ASH Latin name: Fraxinus excelsior L. e Fraxinus omus L. Commercial names: Frene, Ash, Esche, Fresno Original names: Fraissu, Lusa, Fersena, Frosso, Frascinu, Orniello Distribution: Ash is found as scattered trees in Italy and Europe (excluding the farthest northern belt) in mixed hardwood forests; it also grows in Asia and America, in plain to mid-mountain regions Mechanical properties: Average resistance to longitudinal compression 50 N/mm², bending strength 105 N/mm² Modulus of elasticity: 12.500 N/mm² Density: 720 Kg/m³ Dimensional changes: medium Hardness: good Texture: medium Porosity: quite high THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-350 mm 32 ASH TABU 26.032 TABU 26.033 TABU 26.034 TABU 26.035 TABU 26.036 TABU 26.037 TABU 26.038 TABU 26.039 TABU 26.040 TABU 26.041 TABU 26.042 TABU 26.043 TABU 26.044 TABU 26.045 TABU 26.046 33 ASH TABU 26.047 TABU 26.048 TABU 26.049 TABU 26.050 TABU 26.051 TABU 26.052 TABU 26.053 TABU 26.054 TABU 26.055 TABU 26.056 TABU 26.058 TABU 26.059 TABU 26.060 TABU 26.061 TABU 26.062 34 ASH TABU 26.063 TABU 26.064 TABU 26.065 TABU 26.066 TABU 26.067 TABU 26.068 TABU 26.069 TABU 26.070 TABU 26.071 TABU 26.072 TABU 26.073 TABU 26.074 TABU 26.075 TABU 26.076 35 ASH BURR Latin name: Fraxinus excelsior L. e Fraxinus omus L. Commercial names: Frene, Ash, Esche, Fresno Original names: Fraissu, Lusa, Fersena, Frosso, Frascinu, Orniello Distribution: Ash is found as scattered trees in Italy and Europe (excluding the farthest northern belt) in mixed hardwood forests; it also grows in Asia and America, in plain to mid-mountain regions Mechanical properties: Average resistance to longitudinal compression 50 N/mm², bending strength 105 N/mm² Modulus of elasticity: 12.500 N/mm² Density: 720 Kg/m³ Dimensional changes: medium Hardness: good Texture: medium Porosity: quite high THICKNESS: 0,6 mm (nominal) LENGTHS: according to the log WIDTHS: according to the log 36 ASH BURR TABU 72.010 TABU 72.012 TABU 72.013 TABU 72.014 TABU 72.015 TABU 72.016 37 BEECH Latin name: Fagus sylvatica L. Commercial names: Hêtre, Beech, Buche, Haya Original names: Fo, Fagher, Fajar, Vespul, Faz, Fagu Distribution: Beech is found in unmixed stands or growing with other species all over Europe, excluding the northermost belt. Mechanical properties: Average resistance to longitudinal compression 60 N/mm², bending strength 120 N/mm² Modulus of elasticity: 14.500 N/mm² Density: 730 Kg/m³ Dimensional changes: large Hardness: medium to good Texture: medium to fine Porosity: low THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-350 mm 38 BEECH TABU 20.010 TABU 20.011 TABU 20.012 TABU 20.015 TABU 20.018 TABU 20.019 TABU 20.013 TABU 20.014 39 BIRCH Latin name: Betula alba Commercial and Original names: Betulla bianca, Betulla finlandese, Bouleau blanc, Birche, Weissbirche, Abedul Distribution: Europe, northern countries in particular Mechanical properties: Average resistance to longitudinal compression 46 N/mm², bending strength 85 N/mm² Modulus of elasticity: 13.000 N/mm² Density: 600 Kg/m³ Dimensional changes: medium Hardness: medium to good Texture: fine Porosity: low THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3200 mm WIDTHS: 150-600 mm 40 BIRCH TABU 27.041 TABU 27.042 TABU 27.043 TABU 27.044 TABU 27.045 TABU 27.046 TABU 27.047 TABU 27.048 TABU 27.049 TABU 27.051 TABU 27.052 TABU 27.053 TABU 27.054 TABU 27.055 TABU 27.056 41 BIRCH TABU 27.057 TABU 27.058 TABU 27.059 TABU 27.060 TABU 27.062 TABU 27.063 TABU 27.064 TABU 27.065 TABU 27.061 42 BOLIVAR Latin name: Liriodendron tulipifera Commercial names: Bolivar, Tulipier, Tulipier, Tulpenbaum, Whitewood Original names: Tulip wood, Tulip Poplar and Yellow Poplar (utterly incorrect names considering that the botanical characters of Poplars are thoroughly different) Distribution: eastern part of Central USA Mechanical properties: Average resistance to longitudinal compression 37 N/mm², bending strength 70 N/mm² Modulus of elasticity: 10.000 N/mm² Density: 460 Kg/m³ Dimensional changes: medium to large Hardness: fairly low Texture: fine Porosity: low THICKNESS: 0,6 mm (nominal) LENGTHS: 1500-3800 mm WIDTHS: 100-300 mm 43 BOLIVAR TABU 52.040 TABU 52.041 TABU 52.042 TABU 52.043 TABU 52.044 TABU 52.045 TABU 52.046 TABU 52.047 TABU 52.048 TABU 52.049 TABU 52.050 TABU 52.051 TABU 52.052 TABU 52.053 TABU 52.054 44 BOLIVAR TABU 52.055 TABU 52.056 TABU 52.057 TABU 52.058 TABU 52.059 TABU 52.060 TABU 52.061 TABU 52.062 TABU 52.063 TABU 52.064 TABU 52.065 TABU 52.066 TABU 52.067 TABU 52.068 TABU 52.069 45 BOLIVAR TABU 52.070 TABU 52.071 TABU 52.072 TABU 52.073 TABU 52.077 TABU 52.078 TABU 52.079 TABU 52.080 TABU 52.081 TABU 52.082 TABU 52.083 TABU 52.084 TABU 52.085 TABU 52.086 TABU 52.087 46 BOLIVAR TABU 52.088 TABU 52.089 TABU 52.090 TABU 52.093 TABU 52.094 TABU 52.095 TABU 52.091 TABU 52.092 47 CARBALHO Latin name: Euplassa cantareirae Commercial names: Carvalho, Carbalho Original names: Carvalho brasileiro Distribution: Brasil Mechanical properties: Average resistance to longitudinal compression 30 N/mm², bending strength 75 N/mm² Modulus of elasticity: 6.000 N/mm² Density: 550 Kg/m³ Dimensional changes: medium to large Hardness: fairly low Texture: medium to coarse Porosity: high THICKNESS: 0,6 mm (nominal) LENGTHS: 1500-3200 mm WIDTHS: 80-200 mm 48 CARBALHO TABU 81.048 TABU 81.049 TABU 81.051 TABU 81.053 TABU 81.054 TABU 81.055 TABU 81.056 TABU 81.058 TABU 81.059 TABU 81.063 TABU 81.064 TABU 81.065 49 CHERRY Latin name: Prunus avium Commercial names: Ciliegio, Merisier, Cerezo, Kirschbaum, Cherry Distribution: America, Europe, Asia Minor Mechanical properties: Average resistance to longitudinal compression 42 N/mm², bending strength 80 N/mm² Modulus of elasticity: 7.700 N/mm² Density: 580 Kg/m³ Dimensional changes: medium to large Hardness: medium Texture: medium Porosity: medium THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-300 mm 50 CHERRY TABU C3.010 TABU C3.011 TABU C3.012 TABU C3.015 TABU C3.018 TABU C3.019 TABU C3.013 TABU C3.014 51 LATI Latin name: Amphimas pterocarpoides Harms Commercial names: Lati Original names: Lati, Asanfran, Bokanga, Dschi, Edi, Edjin, Gworluh, Kouedi, Muizi, Ogiya, Vahnchu, Zehoui Distribution: West Africa Mechanical properties: no information available Modulus of elasticity: no information available Density: 680-820 Kg/m³ Dimensional changes: medium to large Hardness: good Texture: medium Porosity: medium THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-350 mm 52 LATI TABU 86.040 TABU 86.041 53 MADRONA BURR Latin name: Arbutus menziesii Commercial names: Arbutus, Madrona, Madrono Original names: Manzanita, Madrona, Jarrito Distribution: North America Mechanical properties: no information is available Modulus of elasticity: no information is available Density: 750 Kg/m³ Dimensional changes: large Hardness: fairly low Texture: medium Porosity: fairly low THICKNESS: 0,6 mm (nominal) LENGTHS: according to the log WIDTHS: according to the log 54 MADRONA BURR TABU 46.002 TABU 46.003 TABU 46.004 TABU 46.005 TABU 46.006 TABU 46.007 TABU 46.008 TABU 46.010 TABU 46.013 TABU 46.031 TABU 46.043 TABU 46.050 55 MAHOGANY POMELE’ Latin name: Entandrophragma cylindricum Commercial names: Acajou, Mahagoni Original names: Chiculte, Caobano, Gateado, Araputanga Distribution: Central and South America, Africa Mechanical properties: Average resistance to longitudinal compression 60 N/mm², bending strength 130 N/mm² Modulus of elasticity: 11.000 N/mm² Density: 690 Kg/m³ Dimensional changes: small to medium Hardness: medium Texture: medium Porosity: quite high THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-600 mm 56 MAHOGANY POMELE’ TABU 08.P.010 TABU 08.P.012 57 MAPLE AMERICAN Latin name: Acer sp.p. Commercial names: Acero americano, Erable d’Amerique, Ahorn, Arce, Sugar Maple, Black Maple, Hard Maple Original names: Erable d’Amerique dur, Hard Maple, Black Maple Distribution: USA, Canada Mechanical properties: Average resistance to longitudinal compression: 45 N/mm², bending strength: 110 N/mm² Modulus of elasticity: 9.400 N/mm² Density: 660 kg/m³ 12 % MC Dimensional changes: medium to large Hardness: medium Texture: fine Porosity: low THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-350 mm 58 MAPLE AMERICAN TABU G5.010 TABU G5.011 59 MAPLE BIRD’S EYE Latin name: Acer Commercial names: Acero americano, Erable d’Amerique, Ahorn, Arce, Sugar Maple, Black Maple, Hard Maple Original names: Erable d’Amerique dur, Hard Maple, Black Maple Distribution: Usa, Canada Mechanical properties: verage resistance to longitudinal compression: 45 N/mm², bending strength: 110 N/mm² Modulus of elasticity: 9.400 N/mm² Density: 660 Kg/m³ Dimensional changes: medium to large Hardness: medium Texture: fine Porosity: low THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3600 mm WIDTHS: 120-600 mm 60 MAPLE BIRD’S EYE TABU 05.039 TABU 05.040 TABU 05.041 TABU 05.042 TABU 05.043 TABU 05.044 TABU 05.045 TABU 05.046 TABU 05.047 TABU 05.048 TABU 05.049 TABU 05.050 TABU 05.051 TABU 05.052 TABU 05.053 61 MAPLE BIRD’S EYE TABU 05.054 TABU 05.055 TABU 05.056 TABU 05.057 TABU 05.058 TABU 05.059 TABU 05.060 TABU 05.061 TABU 05.062 TABU 05.063 TABU 05.065 TABU 05.066 TABU 05.067 TABU 05.068 TABU 05.069 62 MAPLE BIRD’S EYE TABU 05.070 TABU 05.072 TABU 05.073 TABU 05.074 TABU 05.075 TABU 05.076 TABU 05.077 TABU 05.079 TABU 05.080 TABU 05.081 TABU 05.082 TABU 05.083 TABU 05.084 TABU 05.085 TABU 05.086 63 MAPLE BIRD’S EYE TABU 05.087 TABU 05.088 TABU 05.089 TABU 05.090 TABU 05.091 64 MAPLE QUILTED Latin name: Various species belong to the botanical genus Acer; among these the following are important in Italy: Acer campestre L., A. pseudoplatanus L., A. opalus Mill. and A. platanoides Commercial names: Acero, Erable, Ahorn, Arce, Sicomoro, European Maple Original names: Oppio, Rompich, Aierela, Testuccio, Occhino, Aggeru, Acero Montano, A. fico, Loppone, Opalo, Loppo, Acero riccio, Cerfico, Platanaria Distribution: both in Italy and in central-southern Europe Sycamores can be found in mixed hardwood forests, from the plain to mid mountain, but hardly ever in unmixed stands. The following information is referred in particular to Sycamore Maple (or Planetree), which is the one more frequently commercialised Mechanical properties: verage resistance to longitudinal compression 45 N/mm², ending strength110 N/mm² Modulus of elasticity: 9.400 N/mm² Density: 660 Kg/m³ Dimensional changes: medium Hardness: good Texture: fine Porosity: low THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-600 mm 65 MAPLE QUILTED TABU D7.P.023 TABU D7.P.024 TABU D7.P.025 TABU D7.P.026 66 MOVINGUE FIGURED Latin name: Distemonanthus benthamanus Baill Commercial names: Movingui, Ayan Original names: Gwadau, Barre, Bonsamdwa, Duabei, Okpoe, Eyen, Bien; also erroneausly called Nigerian Satinwood and African acacia Distribution: forests of the tropical-equatorial belt round the Gulf of Guinea, from the Ivory Coast to Gabon Mechanical properties: Average resistance to longitudinal compression 60 N/mm², bending strength 150 N/mm² Modulus of elasticity: 11.000 N/mm² Density: 700 Kg/m³ Dimensional changes: medium Hardness: medium Texture: medium Porosity: quite high THICKNESS: 0,6 mm (nominal) LENGTHS: 1500-3800 mm WIDTHS: 120-300 mm 67 MOVINGUE FIGURED TABU D5.S.010 TABU D5.S.011 TABU D5.S.012 TABU D5.S.013 68 OAK Latin name: although the woods marketed under the commercial name Oak are produced from three different botanical species, Quercus petraea Liebl, (or Durmast oak), Q. pedunculata Ehrh. (or Pedunculate oak) and Q. pubescens Wild. (or Chêne pubescent), they are hardly distinguishable from one another Commercial names: Rouvre, Chêne pedunculè, Oak, Stieleiche, Traubeneiche, Roble Original names: Roul, Galera, Gettina, Ischia Distribution: Pedunculate oak, which used to be the most widespread in the Po valley, is now confined to very restricted areas, whereas in central and southern Italy the other two species prevail. In central and eastern Europe it forms large beautiful forests Mechanical properties: Average resistance to longitudinal compression 60 N/mm², bending strength 110 N/mm² Modulus of elasticity: 12.500 N/mm² Density: 780 Kg/m³ Dimensional changes: medium to large Hardness: very good Texture: medium Porosity: high THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-350 mm 69 OAK TABU 13.040 TABU 13.041 TABU 13.042 TABU 13.043 70 PERPERO Latin name: Liquidambar styraciflua Commercial names: Noce satin-perpero, Amberbaum, American redgum, Liquidambar, Gomier d’Amerique Original names: Tupelo, Gum, Yellowgum, Redgum, Liquidambar, Sapgum Distribution: central America Mechanical properties: Average resistance to longitudinal compression 45 N/mm², bending strength 85 N/mm² Modulus of elasticity: 11.200 N/mm² Density: 500 Kg/m³ Dimensional changes: medium Hardness: medium Texture: fine Porosity: low THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-350 mm 71 PERPERO TABU D6.010 TABU D6.012 TABU D6.013 TABU D6.016 TABU D6.018 TABU D6.019 TABU D6.014 TABU D6.015 72 PLANE FIGURED Latin name: Platanus acerifolia Commercial names: Platano, Platane, Plane, Platano platero Original names: Platano, Platane, Plane, Platano platero Distribution: Europe Mechanical properties: no information is available Modulus of elasticity: no information is available Density: 600 Kg/m³ Dimensional changes: medium Hardness: fairly low Texture: media Porosity: quite high THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-600 mm 73 PLANE FIGURED TABU 33.010 TABU 33.011 74 SYCAMORE FIGURED Latin name: Various species belong to the botanical genus Acer; among these the following are important in Italy: Acer campestre L., A. pseudoplatanus L., A. opalus Mill. and A. platanoides Commercial names: Acero, Erable, Ahorn, Arce, Sicomoro, European Maple Original names: Oppio, Rompich, Aierela, Testuccio, Occhino, Aggeru, Acero Montano, A. fico, Loppone, Opalo, Loppo, Acero riccio, Cerfico, Platanaria Distribution: both in Italy and in central-southern Europe Sycamores can be found in mixed hardwood forests, from the plain to mid mountain, but hardly ever in unmixed stands. The following information is referred in particular to Sycamore Maple (or Planetree), which is the one more frequently commercialised Mechanical properties: Average resistance to longitudinal compression: 45 N/mm², bending strength: 110 N/mm² Modulus of elasticity: 9.400 N/mm² Density: 660 Kg/m³ Dimensional changes: medium Hardness: good Texture: fine Porosity: low THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3600 mm WIDTHS: 120-600 mm 75 SYCAMORE FIGURED TABU 09.S.001 TABU 09.S.002 TABU 09.S.003 TABU 09.S.004 TABU 09.S.005 TABU 09.S.006 TABU 09.S.007 TABU 09.S.008 TABU 09.S.009 TABU 09.S.010 TABU 09.S.011 TABU 09.S.012 TABU 09.S.013 TABU 09.S.014 TABU 09.S.086 76 SYCAMORE FIGURED TABU 09.S.087 TABU 09.S.088 TABU 09.S.089 TABU 09.S.090 TABU 09.S.091 77 TABA FIGURED Latin name: Micropholis venulosa (Sapotaceae) Commercial names: Curupixa, Abiurana Original names: Abiurana, Cubixa, Curupixa, Grubixa, Grumixava, Pau de remo, Rosadinho, Moraballi, Baaka bouba, Bacouman, Balata blanc, Balata indien, Bouchi apa, Maaka, Reini lout Distribution: South America Mechanical properties: Average resistance to longitudinal compression 60 N/mm², bending strength 110 N/mm² Modulus of elasticity: 17.000 N/mm² Density: 750 Kg/m³ Dimensional changes: medium Hardness: medium Texture: medium Porosity: high THICKNESS: 0,6 mm (nominal) LENGTHS: 1500-3800 mm WIDTHS: 120-300 mm 78 TABA FIGURED TABU L1.S.050 TABU L1.S.051 TABU L1.S.054 TABU L1.S.055 79 TANGANIKA Latin name: Aningeria altissima Aubr.et Pellegr., A.adolfi-friederici Rob. & Gilb. Commercial names: Anegrè, Aniegre, Tanganika, Anigeria, Aninguerie, Mukali Original names: Kali, Sanfena, M’boul, Longhi blanc, N’kali, Kararò, Grogoli, Mukali, Kombe, Muna, Mukangu, Landosan, Abam Distribution: damp forests of the equatorial belt extending across Africa, from Sierra Leone, Liberia, Ivory Coast to Zaire, the Great Lakes region and Ethiopia Mechanical properties: Average resistance to longitudinal compression 57 N/mm², bending strength 105 N/mm² Modulus of elasticity: 11.200 N/mm² Density: 550-600 Kg/m³ Dimensional changes: medium Hardness: medium Texture: medium Porosity: fairly low THICKNESS: 0,6 mm (nominal) LENGTHS: 1500-3800 mm WIDTHS: 120-350 mm 80 TANGANIKA TABU 01.001 TABU 01.002 TABU 01.003 TABU 01.004 TABU 01.005 TABU 01.006 TABU 01.007 TABU 01.008 TABU 01.009 TABU 01.010 TABU 01.011 TABU 01.012 TABU 01.013 TABU 01.050 TABU 01.051 81 TANGANIKA TABU 01.052 TABU 01.053 TABU 01.054 TABU 01.055 TABU 01.057 TABU 01.058 TABU 01.059 TABU 01.061 TABU 01.056 82 TANGANIKA FIGURED Latin name: Aningeria altissima Aubr.et Pellegr., A.adolfi-friederici Rob. & Gilb. Commercial names: Anegrè, Aniegre, Tanganika, Anigeria, Aninguerie, Mukali Original names: Kali, Sanfena, M’boul, Longhi blanc, N’kali, Kararò, Grogoli, Mukali, Kombe, Muna, Mukangu, Landosan, Abam Distribution: damp forests of the equatorial belt extending across Africa, from Sierra Leone, Liberia, Ivory Coast to Zaire, the Great Lakes region and Ethiopia Mechanical properties: Average resistance to longitudinal compression 57 N/mm², bending strength 105 N/mm² Modulus of elasticity: 11.200 N/mm² Density: 550-600 Kg/m³ Dimensional changes: medium Hardness: medium Texture: medium Porosity: fairly low THICKNESS: 0,6 mm (nominal) LENGTHS: 1500-3800 mm WIDTHS: 120-350 mm 83 TANGANIKA FIGURED TABU 01.S.050 TABU 01.S.062 TABU 01.S.115 TABU 01.S.118 TABU 01.S.128 TABU 01.S.137 TABU 01.S.116 TABU 01.S.117 84 TAY Latin name: Pterygota macrocarpa K Shum., P. Bequaertii de wild Commercial names: Kotò, African pterygota Original names: Koto, Bontue, Pohouro, Bofo-Ovale, Kumbi, Ikame, Poroporo, Efok, Kion, Awari, Kiere, Wawampe, Pterigota Distribution: damp forests of the tropical-equatorial belt around the Gulf of Guinea, from Ivory Coast to Gabon and the Central African Republic Mechanical properties: Average resistance to longitudinal compression 55 N/mm², bending strength 120 N/mm² Modulus of elasticity: 11.500 N/mm² Density: 600 Kg/m³ Dimensional changes: medium Hardness: fairly low Texture: medium to coarse Porosity: quite high THICKNESS: 0,6 mm (nominal) LENGTHS: 1500-3800 mm WIDTHS: 120-350 mm 85 TAY TABU 04.036 TABU 04.037 TABU 04.038 TABU 04.039 TABU 04.040 TABU 04.041 TABU 04.042 TABU 04.043 TABU 04.044 TABU 04.045 TABU 04.046 TABU 04.047 TABU 04.048 TABU 04.049 TABU 04.050 86 TAY TABU 04.051 TABU 04.052 TABU 04.054 TABU 04.056 TABU 04.058 TABU 04.059 TABU 04.060 TABU 04.062 TABU 04.064 TABU 04.065 TABU 04.067 TABU 04.069 TABU 04.071 TABU 04.072 TABU 04.075 87 W ALNUT BLACK Latin name: Juglans nigra L. Commercial names: Noce nero (Canaletto), Noyer noir d’Amerique, Amerikanische Nussbaum, Nogal Original names: Black Walnut, American Walnut, Gunwood Distribution: from the Mississippi Basin to the Atlantic coast of the USA to the Great Lakes region Mechanical properties: Average resistance to longitudinal compression 50 N/mm², bending strength 100 N/mm² Modulus of elasticity: 12.000 N/mm² Density: 640 Kg/m³ Dimensional changes: small Hardness: medium Texture: fine Porosity: quite high THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3800 mm WIDTHS: 120-350 mm 88 W ALNUT BLACK TABU 51.010 TABU 51.011 TABU 51.012 TABU 51.015 TABU 51.016 TABU 51.017 TABU 51.013 TABU 51.014 89 W ALNUT EUROPEAN Latin name: Juglans regia L. Commercial names: Noyer, Nussbaum, Nogal, Walnut Original names: Nus, Nogher, Cocolar, Nociara Distribution: Europe. Walnut, which is not commonly found in forests, is cultivated in southern and central Europe for its fruits Mechanical properties: Average resistance to longitudinal compression 60 N/mm², bending strength 100 N/mm² Modulus of elasticity: 10.800 N/mm² Density: 720 Kg/m³ Dimensional changes: medium Hardness: medium Texture: medium Porosity: medium THICKNESS: 0,6 mm (nominal) LENGTHS: 500-3200 mm WIDTHS: 100-300 mm 90 W ALNUT EUROPEAN TABU 06.018 TABU 06.019 TABU 06.020 TABU 06.023 TABU 06.024 TABU 06.025 TABU 06.021 TABU 06.022 91 W ALNUT BURR CALIFORNIA Latin name: Juglans nigra L. Commercial names: Black Walnut, American Walnut, Gunwood Original names: Black Walnut, American Walnut, Gunwood Distribution: from the Mississippi Basin to the Atlantic coast of the USA to the Great Lakes region Mechanical properties: Average resistance to longitudinal compression 50 N/mm², bending strength 100 N/mm² Modulus of elasticity: 12.000 N/mm² Density: 640 Kg/m³ Dimensional changes: small Hardness: medium Texture: fine Porosity: quite high THICKNESS: 0,6 mm (nominal) LENGTHS: according to the log WIDTHS: according to the log 92 W ALNUT BURR CALIFORNIA TABU A3.041 TABU A3.043 TABU A3.045 93 W ALNUT BURR EUROPEAN Latin name: Juglans regia L. Commercial names: Noyer, Nussbaum, Nogal, Walnut Original names: Nus, Nogher, Cocolar, Nociara Distribution: Europe. Walnut, which is not commonly found in forests, is cultivated in southern and central Europe for its fruits Mechanical properties: Average resistance to longitudinal compression 60 N/mm², bending strength 100 N/mm² Modulus of elasticity: 10.800 N/mm² Density: 720 Kg/m³ Dimensional changes: medium Hardness: medium Texture: medium Porosity: medium THICKNESS: 0,6 mm (nominal) LENGTHS: according to the log WIDTHS: according to the log 94 W ALNUT BURR EUROPEAN TABU 99.040 TABU 99.042 TABU 99.044 95 MULTILAMINAR W OOD UNI Standard 10396-10494 The ecological and pollution problems became ever more important with the need to safeguard the environment, protect the forest heritage and improve the environmental conditions in which we live. New solutions have been studied which have led to the manufacture of multilaminar wood. The name itself tells us how these “new woods” are made: they consist of several thin layers (laminae) of various wood species, which, having been individually dyed, are placed together and assembled using particular techniques so as to obtain solid woods, from which even veneers may then be obtained. The product has been manufactured using new concepts, dictated by ecological and ecological considerations and the call for new textures. To produce multilaminar wood, production cycles are in use which permit the manufacture of the end product without polluting the external environment, extracting from the natural wood (the raw material) substances which could be toxic and employing fast-growing woods which come from areas of reafforestation. 1 CATHEDRAL (A) 2 CATHEDRAL (B) 3 CATHEDRAL (C) 96 MULTILAMINAR W OOD Multilaminar wood puts almost complete limits on waste wood as it is produced in fixed measures, yet allows the full utilisation of the wood itself, a raw material which must be protected. The final product is therefore wood in all its senses, namely as to structure, sound absorption qualities, visual depth. It acquires value in terms of texture and lack of toxicity. It is dyed throughout its thickness and can therefore be sanded and re-varnished. Another value, not the least, is that it does not imitate any existing wood, but has its own well-defined character and figure, patterns and colours which are more in harmony with modern interior decorating. In this case, too, it is possible to produce styles and colours according to the client’s needs. STRIPE-GRAIN (R) WAVY (M) CALEIDOLEGNO THICKNESS: Veneers: 0,6 mm (nominal) Boards: 5-100 mm LENGHTS: 2500-3100 mm WIDHTS: 600-700 mm 97 NEW OOD TABU MN.03.001 TABU MN.03.002 TABU MN.03.003 TABU B.06.007 TABU R.06.010 TABU MM.06.013 TABU MM.06.014 TABU R.06.029 TABU R.06.320 TABU B.06.400 TABU MN.07.532 TABU AN.07.627 TABU BB.08.006 TABU RR.08.008 TABU R.08.009 98 NEW OOD TABU R.08.070 TABU R.08.130 TABU R.08.331 TABU AA.08.383 TABU AA4.09.007 TABU MM.09.008 TABU RR.09.009 TABU RR.09.202 TABU MMV.13.014 TABU BB.13.016 TABU BB.13.116 TABU A.13.127 TABU A.13.173 TABU MN4.13.520 TABU MN.13.531 99 NEW OOD TABU MN4.13.544 TABU MN.13.545 TABU MN.13.583 TABU A.16.101 TABU A.16.135 TABU RR.16.412 TABU AA.26.080 TABU AA.26.083 TABU MMV.26.085 TABU MNX.28.002 TABU MN.28.622 TABU RRX.29.007 TABU R.29.022 TABU R.29.132 TABU R.29.147 100 NEW OOD TABU R.30.134 TABU R.30.255 TABU RRX58.009 TABU R.66.297 TABU A.38.009 TABU MMV.38.061 TABU RR.58.004 101 CALEIDOLEGNO TABU AA.00.201 TABU B4.00.421 TABU B4.00.431 TABU B4.00.441 TABU BB.00.023 TABU DR.00.293 TABU DR.00.295 TABU DR.00.297 TABU DR.00.564 TABU ER.00.048 TABU ER.00.294 TABU ER.00.296 TABU ER.00.298 TABU MMV.00.015 TABU MMV.00.017 102 CALEIDOLEGNO TABU MMV.00.020 TABU MMV.00.429 TABU RR.00.011 TABU RR.00.057 TABU RR.00.071 TABU RR.00.078 TABU RR.00.080 TABU RR.00.110 TABU RR.00.396 TABU RR2.00.186 TABU RR2.00.238 TABU RR2.00.242 TABU S.00.503 TABU S.00.506 TABU S.00.509 103 CALEIDOLEGNO TABU S.00.548 TABU S.00.609 TABU S.00.611 TABU S.00.613 TABU SL.00.539 TABU SP.00.597 TABU SP.00.598 TABU SP.00.600 TABU ST.00.502 TABU ST.00.514 TABU ST5.00.900 TABU ST5.00.906 TABU ST5.00.907 TABU ST5.00.908 TABU STVL.00.524 104 CALEIDOLEGNO TABU STVL.00.549 TABU STVL.00.581 TABU STVL.00.583 TABU STVL.00.585 TABU STVL.00.589 TABU SX.00.516 TABU TR.00.567 TABU TT.00.545 TABU TT.00.593 TABU TT.00.594 TABU TT.00.602 TABU TT.00.608 TABU TT.00.610 TABU TT.00.612 TABU Z.00.515 105 CALEIDOLEGNO TABU Z.00.701 TABU Z8.801 TABU Z8.803 TABU Z8.806 TABU Z8.807 106 PARQUET It is commonly thought that a parquet floor must be of a certain thickness, traditionally using a certain kind of wood, and laid by gluing or nailing on the surface to be covered. This takes a long time to lay due to following the various technical times. TABU produces “CALEIDOSYSTEM”, ready-made in multilaminar wood, which respects the environment; this is a product manufactured and varnished at the factory which has better features than a traditional parquet (hardness, swelling, stability and so on) with the advantage of a better finish (it is made using high technology machines), and can be speedily laid if it is to be glued, and even more quickly if it is laid floating. In this case the parquet is placed on a synthetic bed which acts as a shock-absorber as well as thermal insulation, with only the boards being glued to one another. It feels softer to walk on and conserves heat. It can be laid on new screed, old floors and old carpeting. Maintenance is simple; it is cleaned with normal detergent and polished with ordinary wax. Many colours and figures are available to simplify matching the various colours of the furnishing. TABU makes “CALEIDOMASS” in the same figures and colours in solid multilaminar wood. The laying technique is by traditional gluing. 107 PARQUET CALEIDOSYSTEM 20-40 Prefinished parquet made with multilaminar-wood ( M.W.) dyed all through the thickness. It can be laid with a full glueing system or with floating system. CALEIDOMASS 80-99 Solid flooring planks of multilaminar-wood ( M.W.) dyed all through the thickness. To be installed with full glueing system. TECHNICAL DATA LACQUER (Caleidosystem 20-40 only) Gloss: 35-40 Chemical resistance: (1-10) Alcohol 10, Stripers 8, Turpentine 10, Chemical rinse 10, Water 10, Acids 0, Fire 0, Temperature +70° -5°C. Colourfast test: (Test Weather Ometer Atlas 25WR, ISO Standard 2809 20H ) Dark colours 4-5, Medium colours 4, Light colours 3 Surface hardness: 4H DENSITY: ISO 3131 = 720-964 Kg/m³ DIMENSIONAL STABILITIES: (23°C RH 90/95 15days/ 23°C RH 35/40 15days) Radial stability0,3-0,4% Length stability 0,01-0,02% HARDNESS TEST: UNI 4712 = 0,06-0,09 BRINELL: UNI 560-75 between 4,5 to 5,4 (according to model) THICKNESSES: Wood Layer (according to model): 2-10 mm (nominal) Planks: 8-16 mm LENGTHS: 600-1500 mm WIDTHS: 80-120 mm 108 PARQUET TABU Z9.008 TABU Z9.011 TABU Z9.014 TABU Z9.015 TABU Z9.018 TABU Z9.019 TABU Z9.023 TABU Z9.027 TABU Z9.037 TABU Z9.038 TABU Z9.041 TABU Z9.043 TABU Z9.045 TABU Z9.046 TABU Z9.049 109 PARQUET TABU Z9.051 TABU Z9.052 TABU Z9.065 TABU Z9.084 TABU Z9.100 TABU Z9.101 TABU Z9.430 TABU Z9.544 TABU Z9.610 TABU Z9.801 TABU Z9.803 TABU Z9.805 TABU Z9.806 TABU Z9.808 TABU Z9.812 110 PARQUET TABU Z9.813 TABU Z9.814 TABU Z9.816 TABU Z9.817 TABU Z9.818 TABU Z9.819 TABU Z9.821 TABU Z9.823 TABU Z9.824 TABU Z9.827 111 PARETE TABU PARETE TABU is a system of wall covering panels varnished and ready to be installed with invisible joints. Parete Tabu is made of MDF panels, veneered, grooved and varnished ( gloss 40- 50 ) It is easiliy installed on flush walls or on wooden bars. Joints are invisible thanks to particular aluminium bars and wooden mouldings ( the system is patented ). The system is completed by skirtings and Caleidoriv wall deckings, in the same colour selection. SKIRTING CALEIDORIV THICKNESS: Veneer: 0,6 mm (nominal) Panel:9 mm HEIGHT: 3000 mm WIDHT: 600 mm 112 PARETE TABU TABU 2B01S115 TABU 2B04075 TABU 2B52046 TABU 2B52058 TABU 2B52059 TABU 2B52088 TABU 2E00420 TABU 2E00430 TABU 2E07532 TABU 2E13123 113 PARETE TABU TABU 2E13535 TABU 2E26083 TABU 2E26085 TABU 2EZ1101 TABU 2EZ1102 TABU 2EZ9041 TABU 2EZ9047 TABU 2EZ9049 TABU 2EZ9065 TABU 2EZ9814 114 EDGEBANDS As a consequence of using veneers on a large scale, the need has arisen to speed-up production of veneers used to cover the cut sides of the substrates. These veneers, called “edgebands” are strips of veneer joined continuously head-on in the direction of the grain. Edging machines with continuous action have been developed which apply them using thermosetting glues. At the same time edgebands have been developed according to various requirements. These are usually supplied in rolls of varying lengths (standard 300 metres), and continuously jointed with finger joints which conceal the joins. According to production requirements, these borders are produced in various thicknesses from 0,3 mm to 2 mm, and from 14 to 300 mm wide; they may be backed by paper or textiles to lend greater elasticity to the veneer according to the end use (curves etc.). A worthwhile innovation is the development of borders which are 2 mm thick or more (veneer laminate) which are produced by gluing together various wood species, so obtaining a “sandwich” as required. These edgebands are produced in lengths according to the logs in the case of natural or pre-dyed woods, and in fixed measures (of approximately 3 metres) in the case of multilaminar woods. The widths can be made available according to requirement. This solution is ideal for producing rounded edging with a radius that is not obtainable by using borders which are insufficiently thick. The range of potential design difficulties is huge, and the ideal product to meet every requirement can be made, using various techniques. The edgebands can be made with all TABU veneers, in various thicknesses, backed or laminated, up to 300 mm in width, in rolls 300 m long and continuously jointed with finger joints. 115 TABU COLLECTION is a new accessories collection made with environmental-friendly multilaminar “Real Wood”. Multilaminar wood is made by glueing together various different peeled or sliced woods, either natural or dyed. The system involes the use of special technology to manufacture solids with a marquetry structure in various models and colours. These solids are used to realize our creations. Tabu collection tells its tales through nature and colours. 116 Collection Watches Watch The most recent collection of watches made of “Real Wood, ecologically treated multilaminar. Flexible, elegant, they are unique in their particularity. These watches are a fantastic idea for presents and are enriched by a beautiful case in “Real Wood”. Available in the most varied combination of colours and inlays, each can be considered a unique item. Each model recalls a different theme and matches new trends in fashion. Technical feature - Bottom : steel and water-proof manufacture - Case : palladium-treated brass, 5 mc nickel-free plating - Winder : real multilaminar wood - Dial : enamelled with applied numbers - Movement : quartz. ETA 902.105 ( can be checked ) - Battery: 364 - Strap : Real multilaminar wood with anti-allergic Nabuk lining - Buckle : anti-allergic, nickel-free 117 Collection Watches TABU D.08.200 TABU D.08.201 TABU D.08.202 TABU D.08.203 TABU D.08.204 111TABU D.08.205 TABU D.08.206 TABU D.08.207 TABU D.08.208 TABU D.08.209 118 Collection Watches TABU D.08.210 TABU D.08.211 TABU D.08.212 TABU D.08.213 TABU D.08.215 TABU D.08.216 TABU D.08.217 TABU D.08.218 TABU D.08.219 TABU D.08.220 119 Collection Briefcase Briefcase The ideal, particularly elegant briefcase for perfect organization. Made of “Real Wood” ( Madrona burr ) matching the leather with handmade stitching and trimmings, it is very strong, spacious and refined. It bears the dry-branded Tabu hallmark. Sizes: 45 x 38 x 11 cm. TABU D.50.225 120 Collection Briefcases Briefcase A briefcase with three folio compartments, it is ideal for the manager with high demands for organization and elegance. It is made of “Real Wood” ( Madrona burr ) matching the leather with handmade stitching and trimmings. The dry-branded Tabu hallmark underlines its value. Sizes: 42 x 39 x 14 cm. TABU D.51.224 TABU D.51.225 121 Collection Pens Ball pen (D.02...) and fountain pen (D.01...) Pens made of “Real Wood” ( solid multilaminar wood ) Dedicated to those who wish to distinguish themselves for their elegance, originality and imagination. Of a pleasent design and long life, they are also ideal as a present. TABU D.01.206 TABU D.02.206 TABU D.01.205 TABU D.02.205 TABU D.01.208 TABU D.02.208 TABU D.01.209 TABU D.02.209 TABU D.01.211 TABU D.02.211 122 Collection Albums Photograph Album An album that is suitable for all types of festivities with pages in strong card and protective film. Made of “Real Wood” (Madrona burr) and leather with hand-made stitchings and trimmings, it is embellished with the dry-branded Tabu hallmark. Sizes: 36 x 35 x 8 cm. 123 Collection Organizers Diary An elegant and practical diary made of “Real Wood” ( Madrona burr ), matching the leather with hand-made stitchings and trimmings. The dry-branded Tabu hallmark underlines its value. Sizes: 19 x 26 x 3 cm. TABU D.54.225 TABU D.54.224 124 Collection Organizers Organizer TABU D.55.209 TABU D.55.226 TABU D.55.211 TABU D.55.208 TABU D.55.225 TABU D.55.227 TABU D.55.212 TABU D.55.224 The ideal diary for the manager. With mobile sheets, it is made of “Real Wood” ( Madrona burr or multilaminar wood ) matching the leather with hand-made stitchings and trimmings and is enriched by the dry-branded Tabu hallmark. Sizes: 14 x 20 x 3 cm. 125 Collection Clocks Mantel clocks A particularly attractive clock. A furnishing accessory that adds a touch of refinement to all sourroundings. Of rational design, it has quartz movement and is in “Real Wood” ( multilaminar ). Sizes: 8,5 x 20 x 8,5 cm. 126 Collection Accessories 6-hook key holder (D.56...) Key holder straps (D.57...) These small and strong key holders are made of “ Real Wood “ ( Madrona burr or multilaminar wood ), matching the leather with hand-made stitchings and trimmings. They are embellished by the dry-branded Tabu hallmark. TABU D.56.224 TABU D.57.224 TABU D.56.208 TABU D.56.211 TABU D.56.212 TABU D.56.225 TABU D.57.225 TABU D.56.227 127 CONTACTS TABU S.p.A. Via Rencati, 110 22063 Cantù (COMO) ITALY Tel: (+39) 031714493 Fax: (+39) 031711988 Web Site: www.tabu.it email : info@tabu.it P UB LISHED B Y TA BU S pA – A ll rights reserved P ho tos, co des and co lo urs of wood species belo ng to T abu S.p.A . Reproductio n is pro hibited.. 128 For a correct shade balancing, screen colour temperature shouldn’t be less than 9000°K ( best 9300 °K). Adjust Brightness, Contrast, Saturation, using the upper bars. Red, Green, Blue channels and the Greys scale must be properly adjusted with all the shades from the darkest to the lightest. If such gradation scales are not visible, adjust screed values at the best, till separations between shades are constant and distinguishable. BACK TO INDEX